2017-2018 Columbia Neurology Residency Teach Block
Approach to “Altered Mental Status”
I. Definition:
-Consciousness: a state of full awareness of the self and one’s relationship to the environment. Consciousness consists of two components.
- Content- impairment in specific cognitive domains can be caused by focal lesions (i.e. aphasia, neglect)
- Level of arousal- can be caused by widespread cortical impairment or injury to the brainstem/specific dicencephalic pathways
**Note: The chief complaint of “altered mental status” most often refers to impairment in the level of arousal and/or attention, but a specific impairment such as aphasia that could be confounding the exam should be evaluated
II. Pathophysiology of Decreased Level of Arousal
- Structural Causes
- Supratentorial damage ormass lesions that may compress deep diencephalic structures and impair both hemispheric functions
- Diffuse bilateral hemispheric damage (i.e. hypoxic ischemic encephalopathy)
- Diencephalic injury (i.e. tumor destroying thebilateral thalami or hypothalamus)
- Infratentorial mass or destructive lesion, which damage the ascending arousal system at its origin in the high-brainstem
- High-pontine and lower midbrain paramedian tegmental injury (i.e. basilar artery occlusion)
- Pontine hemorrhage
**Note: Lesions below the level of the mid-pons do not impair consciousness but can lead to locked in syndrome
- Diffuse Metabolic Causes (i. e. sepsis, CHF exacerbation, hepatic encephalopathy, toxic ingestion, hyponatremia, etc)
III. Examination of the Comatose Patient
- Determine Level of Consciousness
- Address the patient verbally > If no response speak more loudly or shake the patient > If still no response give deep noxious stimuli
- Examples of noxious stimuli: nail bed pressure, supraorbital ridge pressure, sternal rub, and TMJ joints pressure
- Vitals Check
- Airway protection
- Pattern of breathing
- Intrinsic respiratory rhythm is generated in the ventrolateral medulla (integrates information from chemoreceptors, pulmonary stretch, emotional input from the cortex)
- Cheynes-Stokes breathing (indicates bilateral forebrain/diencephalic damage with intact brainstem reflexes)
- Hyperventilation (secondary to metabolic acidosis or high brainstem injury affecting the parabrachial nucleus causing central hyperventilation)
- Apneustic Breathing is a respiratory pause at each full inspiration (most commonly caused by pontine infarctions)
- Ataxic breathing (damage at the level of the respiratory rhythm generator at the upper medulla)
- Circulation (BP)
- Should ensure adequate blood pressure/mean arterial pressure for cerebral profusion
- CNS injury can cause decrease in sympathetic tone and also cause hypotension
- Size and Reactivity of the Pupils- pupillary pathway is highly resistant to metabolic insult and can differentiate between a metabolic coma from a structural coma
- Pupil dilation- pupillodilator muscles innerved by sympathetic ganglion cells in the superior cervical ganglion
- Pupil constriction- pupilloconstrictor muscles are innervated by the parasympathetic neurons in the ciliary ganglion (origin is the EW nucleus)
- Horner’s syndrome vs. Raeder’s Paratrigeminal Syndrome with only miosis and ptosis (localizes lesion along the sympathetic pathway)
- Midbrain pupils- Dilated (if unilateral with fixed dilation think either compressive aneurysm on CN III or uncal herniation)
- Pontine pupils- severely constricted
- Eye Movement and Oculovestibular Response- asymmetric oculomotor function identifies a patient with a structural rather than metabolic cause of coma
- Open eyelids
- Eyelids of a comatose patient will fall smoothly and gradually
- Forced eye closure may be seen in confused patients who are not comatose, or patients with eyelid apraxia (non-dominant parietal lesions)
- Test for corneal response which requires intact CN V1 and CN VII (if CN VII is weak, may only see a Bell’s phenomenon)
- Examine for spontaneous eye movements and resting position
- Slow roving eye movements typical of metabolic encephalopathy
- Gaze preference (towards the side of the frontal eyefield lesion)
- Nonconjugate (baseline strabismus, cranial nerve issue)
- Skew (medulla or lower pons lesion)
- Ocular bobbing (diffuse brainstem injury)
- Vestibulo-ocular responses- brisk head movements in lateral direction and hold head for a few seconds in the lateral position
- Awake patients can suppress the VOR
- Comatose patient with intact brainstem reflexes will have eyes move to midline
- If no response perform cold caloricsto confirm
- Cold water in unilateral ear- eyes move toward the irrigated side
- Cold water in both ears- eyes look down
- Warm water in both ears- eyes look up
- Skeletal motor responses
- Tone (spastic vs. rigidity vs. paratonia)
- Reflexes (including frontal release reflexes)
- Response
- Appropriate response is withdraw away from stimulus
- Triple Flexion (spinal cord or brainstem injury)
- Posturing
- Damage above the rostral midbrain: Flexor Posturing of the upper extremities and extension of the lower extremities
- Damage below the rostral midbrain: Extensor posturing of both upper and lower extremities (more ominous)
IV. Major Diagnostic Tests (combination depends on clinical picture, can give example cases here)
- Blood and urine testing
- NCHCT
- MRI
- LP
- EEG
Further Neuroanatomy that can be reviewed during the lecture:
Sympathetic pathway:
-First Order Neuron: Hypothalamus > Lateral brainstem > synapse at the nucleus of budge (C8-T2)
-Second Order Neuron: Sympathetic Chain > Superior Cervical Sympathetic Ganglion
-Third Order Neuron: Branch that controls sweating goes along the EC; branch that controls pupillary dilation and eyelid elevation goes along the IC > V1 > cavernous sinus > superior orbital fissure
CN III pathway:
-Emerges from between the cerebral peduncles > travels between the SCA and PCA > travels parallel to the Pcomm > cavernous sinus > superior orbital fissure
- Superior Branch: Superior Rectus and LevatorPalpbrae
- Inferior Branch: Medial Rectus, Inferior Rectus, Inferior oblique
CN IV pathway:
-Nerve cross before exiting on the dorsal side of the brainstem > wrap around the brainstem > cavernous sinus > superior orbital fissure
CN VI pathway (subject to compression with elevated ICP)
-Emerges on the ventral side of the pons > cavernous sinus > superior orbital fissure
Horizontal Gaze Pathway:
-Frontal eye field > contralateral PPRF > ipsilatal CN VI nucleus and via MLF to contralateral CN III
Reference:
Lecture is adapted from Chapters 1 and 2 of Plum and Posner’s Diagnosis of Stupor and Coma: Fourth Edition by Jerome B. Posner, Clifford b .Saper, Nicholas D. Schiff, Fred Plum. Copyright 2007.